CN205138302U - Clean system of ball is penetrated to power plant's condenser high pressure - Google Patents

Abstract

The utility model provides a clean system of ball is penetrated to power plant's condenser high pressure, include and add the ball room for place the glueballs, high pressure water pump, with the water inlet that adds the ball room links to each other for the blowout water under high pressure promotes add the indoor glueballs of ball, penetrate the ball room, the entrance point of penetrating the ball room links to each other with the export that adds the ball room, the exit end of penetrating the ball room with the entrance point of condenser links to each other, it is used for receiving the glueballs that is come by the water under high pressure promotion and distributing the glueballs to penetrate the ball room each circulating cooling water pipe way entrance point department of condenser, with the receipts net, be used for receiving and pass the glueballs of the circulating cooling water pipe way of condenser. The utility model provides a clean system of ball is penetrated to power plant's condenser high pressure has synthesized the advantage of traditional glueballs cleaning system and high -pressure water washing system, makes the glueballs have very big instantaneous collision momentum through the water under high pressure, passes through fast the circulating cooling water pipe of condenser says and will the circulating cooling water pipe of condenser says that the dirt of inner wall erodees the sanitization.

Description

A kind of plant condenser height injection ball cleaning systems

Technical field

The utility model belongs to cleaning device technical field, and specifically, the utility model relates to a kind of plant condenser height injection ball cleaning systems.

Background technology

Condenser is one of the visual plant in power plant, and in During Process of Long-term Operation, condenser cooling water inside pipe wall fouling easily occurs or produces biofouling, and heat transfer efficiency is significantly reduced, and then also affects the efficiency of generating set and exert oneself.The dirt how removing condenser cooling water inside pipe wall place has become the task of top priority.

Along with the development of society, method that is the most frequently used, that the most effectively clean condenser cooling water pipe is cleaned with rubber ball cleaning system for steam condenser now, rubber ball cleaning system for steam condenser can when generating set normally works on-line cleaning condenser cooling water pipe, solve the fouling problem of condenser cooling water pipe, make condenser cooling water pipe remain best clean conditions, and then extend the service life of condenser and generating set can be increased exert oneself and reduce coal consumption.As shown in Figure 1, the cleaning process of rubber ball cleaning system for steam condenser allows glueballs by condenser cooling water pipe, in this case, glueballs is that dispersion irregularly enters condenser water box, the flow direction of glueballs is with cooling water flow velocity and flow to relevant, pass through without glueballs for a long time in the region that current comparatively delay, therefore there will be the situation that cleaning is insufficient, thoroughly, locally incrustation scale is serious, descale effect is undesirable to cause cleaning systems; Moreover, when adopting rubber ball cleaning, because the differential pressure of water is less, easily makes glueballs be stuck in cooling water pipe and block, cause the low even plugging of ball collecting rate, phenomenon of cutting off the water supply.In addition, also has a kind of method by high pressure water washing condenser cooling water pipe, as shown in Figure 2, when high pressure water washing condenser cooling water pipe, waterpower due to water under high pressure is front strong rear weak, and hydraulic pressure decay is exceedingly fast, and only has obvious developing result in condenser cooling water pipeline porch so there will be, and at the pipeline postmedian of condenser cooling water pipe substantially without cleaning action, make condenser water pipe occur that cleaning is uneven, thorough phenomenon along length.

By upper analysis, there is following characteristics and defect in the cleaning method of the condenser cooling water pipe of known prior art:

1, clean uneven.No matter be rubber ball cleaning or high pressure water washing, all exist and uneven problem is cleaned to condenser cooling water pipe, when using conventional rubber ball cleaning condenser cooling water pipe, the region that current comparatively delay is passed through without glueballs for a long time, and glueballs blocking easily occurs at the pressure reduction of water less position, uneven situation is cleaned in the front and back that there will be condenser cooling water pipe; Uneven situation is cleaned in the front and back that certain water under high pressure there will be condenser cooling water pipe equally.

2, cleaning is not thorough.During high pressure water washing, because weak, hydraulic pressure decay afterwards strong before water under high pressure is exceedingly fast, there will be condenser cooling water pipe and clean halfway situation.

Utility model content

The purpose of this utility model is to provide a kind of plant condenser height injection ball cleaning systems, with what at least solve that prior art exists, uneven technical problem is cleaned to condenser, can also solve simultaneously exist in the prior art halfway technical problem is cleaned to condenser.

In order to solve the problem, the utility model provides a kind of plant condenser height injection ball cleaning systems, and its technical scheme is as follows:

A kind of plant condenser height injection ball cleaning systems, comprise ball feeding chamber, for placing glueballs; High-pressure hydraulic pump, is connected with the water inlet of described ball feeding chamber, for spraying the glueballs that water under high pressure promotes in described ball feeding chamber; Penetrate ball room, the described entrance point penetrating ball room is connected with the outlet of described ball feeding chamber, the described port of export penetrating ball room is connected with the entrance point of described condenser, the entrance point of described condenser has multiple recirculated cooling water pipeline, described in penetrate ball room for receiving the glueballs that promoted by water under high pressure and glueballs being assigned to each recirculated cooling water pipeline of described condenser; And ball screen, be connected by pipeline with the ball hole of described ball feeding chamber in the circulating water outlet pipe being arranged on described condenser, glueballs be delivered in described ball feeding chamber for the glueballs that receives through the recirculated cooling water pipeline of described condenser.

Plant condenser height injection ball cleaning systems described above, more preferably: the diameter of described glueballs is greater than the caliber of the recirculated cooling water pipeline of described condenser.Still more preferably, the diameter of described glueballs is 1.2 ~ 1.5 times of the caliber of the recirculated cooling water pipeline of described condenser.

Plant condenser height injection ball cleaning systems described above, more preferably: also comprise Rubber ball pump, are located on the pipeline between described ball screen and described ball feeding chamber, for being delivered in described ball feeding chamber by the glueballs in described ball screen.

Plant condenser height injection ball cleaning systems described above, more preferably: described Rubber ball pump is positioned at below the bottom of described ball screen.

Plant condenser height injection ball cleaning systems described above, more preferably: described ball screen is arranged on the below of the water outlet port of described condenser.

Plant condenser height injection ball cleaning systems described above, more preferably: the middle part of described ball screen forms projection, the periphery bottom of described ball screen is provided with two or more ball mouth.

Plant condenser height injection ball cleaning systems described above, more preferably: also comprise non-return valve, described non-return valve is arranged on the ball hole place of described ball feeding chamber, returns ball for the glueballs preventing described water under high pressure to be back in low pressure line and ball feeding chamber from ball hole.

Plant condenser height injection ball cleaning systems described above, more preferably: also comprise ball feeding chamber and found net, described ball feeding chamber founds net and becomes to be inclined in described ball feeding chamber, the outlet of described ball feeding chamber is positioned at the top that described ball feeding chamber founds net, the ball hole of described ball feeding chamber and the outlet of described ball feeding chamber are positioned at the same side that described ball feeding chamber founds net, and the water inlet of described ball feeding chamber is positioned at the opposite side that described ball feeding chamber founds net.

Plant condenser height injection ball cleaning systems described above, more preferably: described in penetrate ball room and comprise goal passage leading portion, described goal passage leading portion is connected by the outlet of pipeline with described ball feeding chamber; With goal passage back segment, the front end of described goal passage back segment is mated with described goal passage leading portion and is connected, the rear end of described goal passage back segment is connected with the entrance point of described condenser, described goal passage back segment is provided with and multiplely penetrates bulb road, the recirculated cooling water pipeline one_to_one corresponding penetrating bulb road and described condenser described in multiple is arranged.

Plant condenser height injection ball cleaning systems described above, more preferably: described in penetrate ball room and also comprise flexible sealing part, described flexible sealing part is arranged between described goal passage back segment and the entrance point of described condenser.

Analyze known, compared with prior art, advantage of the present utility model and beneficial effect are:

One, the plant condenser height injection ball cleaning systems that the utility model provides combine the advantage of traditional rubber ball cleaning system and high pressure water washing system, the pressure energy of the water under high pressure that described high-pressure hydraulic pump can be utilized in use to spray is converted into high-velocity fluid, glueballs impact extrusion in described ball feeding chamber is entered in the recirculated cooling water pipeline of described condenser, now glueballs has very large instantaneous striking momentum, quickly through described condenser recirculated cooling water pipeline while by clean for the dirt flush clean of the recirculated cooling water pipeline inwall of described condenser; Therefore, the utility model compare traditional rubber ball cleaning system and high pressure water washing system there is cleaning evenly, cleaning more thoroughly, prevent the feature that glueballs blocks and ball collecting rate is high.

Two, the diameter of glueballs of the present utility model is greater than the caliber of the inlet channel of described condenser, can make to fit completely between the tube wall of the recirculated cooling water pipeline of glueballs and described condenser, reaches good cleaning performance.

Glueballs in described ball screen can be transported in described ball feeding chamber by described Rubber ball pump that three, the utility model is arranged smoothly.

Four, the vibrational power flow of described ball screen of the present utility model and position arrangement can just be taken in its net smoothly and prevent glueballs from blocking in the exit of described ball screen by glueballs.

Five, the glueballs that the described non-return valve that the utility model is arranged can prevent described water under high pressure to be back in low pressure line and ball feeding chamber returns ball from ball hole.

Six, the described ball feeding chamber that the utility model is arranged founds net and glueballs smooth delivery of power in ball feeding chamber can be made when high pressure water impact glueballs in condenser.

Seven, structure of penetrating ball room described in the utility model can play the effect of guiding early stage to glueballs, guarantees that glueballs can enter the recirculated cooling water pipeline of described condenser smoothly.

Accompanying drawing explanation

Fig. 1 is the Cleaning principle schematic diagram of the rubber ball cleaning system of prior art.

Fig. 2 is the Cleaning principle schematic diagram of the high pressure water cleaning system of prior art.

Fig. 3 is the structural representation of the plant condenser height injection ball cleaning systems of the utility model preferred embodiment.

Fig. 4 is the structural representation penetrating ball room of the plant condenser height injection ball cleaning systems of the utility model preferred embodiment.

Fig. 5 is the Cleaning principle schematic diagram of the plant condenser height injection ball cleaning systems of the utility model preferred embodiment.

In figure, 1-condenser; 2-circulating water inlet; 3-circulating water outlet pipe; 4-ball screen; 5-Rubber ball pump; 6-non-return valve; 7-ball feeding chamber; 8-ball feeding chamber founds net; 9-high-pressure hydraulic pump; 10-penetrates ball room; 101-goal passage leading portion; 102-goal passage back segment; 103-penetrates bulb road; 104-flexible sealing part.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in further details.

As shown in Figure 3, the plant condenser height injection ball cleaning systems of the utility model preferred embodiment mainly comprise ball feeding chamber 7, for placing glueballs; High-pressure hydraulic pump 9, is connected with the water inlet of ball feeding chamber 7, for spraying the glueballs in water under high pressure promotion ball feeding chamber 7; Penetrate ball room 10, the entrance point penetrating ball room 10 is connected with the outlet of ball feeding chamber 7, the port of export penetrating ball room 10 is connected with the entrance point of condenser 1, the entrance point of condenser 1 has multiple recirculated cooling water pipeline, penetrates ball room 10 for receiving the glueballs that promoted by water under high pressure and glueballs being assigned to each recirculated cooling water pipeline of condenser 1; Ball screen 4, is connected by pipeline with the ball hole of ball feeding chamber 7 in the circulating water outlet pipe 3 being arranged on condenser 1, is delivered in ball feeding chamber 7 by glueballs for the glueballs that receives through the recirculated cooling water pipeline of condenser 1.

Generally speaking, the mode that the plant condenser height injection ball cleaning systems that the utility model provides adopt traditional rubber ball cleaning and high pressure water washing to combine, the pressure energy of the water under high pressure utilizing high-pressure hydraulic pump 9 to spray in use is converted into high-velocity fluid, glueballs impact extrusion in ball feeding chamber 7 is entered in the recirculated cooling water pipeline of condenser 1, now glueballs has very large instantaneous striking momentum, quickly through condenser 1 recirculated cooling water pipeline while by clean for the dirt flush clean of the recirculated cooling water pipeline inwall of condenser 1.Visible, plant condenser height injection ball cleaning systems of the present utility model can evenly clean each recirculated cooling water pipeline of condenser 1 and thoroughly can clean each recirculated cooling water pipeline of condenser 1.The utility model utilizes high pressure water washing mode to provide enough initial momentums and the impulsive force continued to glueballs, shortcomings such as largely improving traditional rubber ball cleaning system cleaning inequality, easily block, ball collecting rate is low.

Thoroughly clean in order to ensure to each recirculated cooling water pipeline of condenser 1, the diameter of glueballs of the present utility model is greater than the caliber of the recirculated cooling water pipeline of condenser 1.Fit completely when can utilize the recirculated cooling water pipeline of glueballs by condenser 1 like this and between the tube wall of recirculated cooling water pipeline, reach good cleaning performance.Be preferably, the diameter of glueballs is 1.2 ~ 1.5 times of the circulating cooling water pipe road caliber of condenser 1.

In order to be transported in ball feeding chamber 7 by the glueballs in ball screen 4 smoothly, as shown in Figure 3, the utility model also comprises Rubber ball pump 5, is located on the pipeline between ball screen 4 and ball feeding chamber 7, for being delivered in ball feeding chamber 7 by the glueballs in ball screen 4.More preferably Rubber ball pump 5 is positioned at below the bottom of ball screen 4, and the Action of Gravity Field of glueballs can be utilized like this to be entered in Rubber ball pump 5 by ball screen 4.

In order to make ball screen 4 can be taken in by glueballs smoothly in its net, as shown in Figure 3, ball screen 4 is arranged on the below of the water outlet port of condenser 1, and glueballs can be facilitated like this to drop in ball screen 4.As shown in Figure 3, more preferably the middle part of ball screen 4 forms projection, and the periphery bottom of ball screen 4 is provided with two or more ball mouth; Ball screen 4 can be avoided because only having a ball mouth like this to cause blocking.

A water inlet is provided with at ball feeding chamber 7, a ball hole and an outlet, under the effect of the water under high pressure of high-pressure hydraulic pump 9, there will be the water under high pressure glueballs be back in low pressure line (i.e. the pipeline at the ball hole place of ball feeding chamber 7) side and ball feeding chamber 7 and there will be the situation returning ball toward ball hole, in order to be very difficult for this to happen, as shown in Figure 3, the utility model also comprises non-return valve 6, non-return valve 6 is arranged on the ball hole place of ball feeding chamber 7, glueballs in the pipeline being back to the ball hole place of ball feeding chamber 7 for preventing water under high pressure and in ball feeding chamber 7 returns ball from ball hole.

In order to guarantee that glueballs smooth delivery of power in ball feeding chamber 7 is in condenser 1, as shown in Figure 3, the utility model also comprises ball feeding chamber and founds net 8, ball feeding chamber founds 8 one-tenth, net and is inclined in ball feeding chamber 7, the outlet of ball feeding chamber 7 is positioned at the top that ball feeding chamber founds net 8, the ball hole of ball feeding chamber 7 and the outlet of ball feeding chamber 7 are positioned at the same side that ball feeding chamber founds net 8, and the water inlet of ball feeding chamber 7 is positioned at the opposite side that ball feeding chamber founds net 8.High pressure water impact glueballs, makes glueballs enter pitching pipeline by the outlet of ball feeding chamber 7.

Effectively injected by glueballs in the recirculated cooling water pipeline of condenser 1 to make to penetrate ball room 10, as shown in Figure 3, Figure 4, ball room 10 of penetrating of the present utility model comprises goal passage leading portion 101, and goal passage leading portion 101 is connected by the outlet of pipeline with ball feeding chamber 7; With goal passage back segment 102, the front end of goal passage back segment 102 is mated with goal passage leading portion 101 and is connected, the rear end of goal passage back segment 102 is connected with the entrance point of condenser 1, goal passage back segment 102 is provided with and multiplely penetrates bulb road 103, multiple bulb road 103 of penetrating is arranged with the recirculated cooling water pipeline one_to_one corresponding of condenser 1.Entering smoothly to enable glueballs penetrates in bulb road 103, and the entrance point penetrating bulb road 103 of the present utility model is that horn mouth is arranged; Be convenient to glueballs like this enter and penetrate in bulb road 103.Again more preferably, ball room 10 of penetrating of the present utility model also comprises flexible sealing part 104, and flexible sealing part 104 is arranged between goal passage back segment 102 and the entrance point of condenser 1.The utility model adopts flexible sealing to be connected by penetrating the connecting portion of ball room 10 with the recirculated cooling water pipeline of condenser 1, certain compensator or trimmer pressure can be formed, more uniform for glueballs squeezing in each recirculated cooling water pipeline (i.e. heat exchange pipeline) of condenser 1 is cleaned.

Except the above-mentioned arrangement penetrating ball room 10, a kind of multi-pipeline of many condensers 1 cleaning robot also can be adopted to penetrate ball mode, by the working condition of each pipeline dirty situation of ash and each cleaning robot in remote monitoring condenser 1, ensure the abundant cleaning to each tube bank (i.e. recirculated cooling water pipeline) of condenser 1.

As shown in Fig. 3, Fig. 4 and Fig. 5, below cleaning process of the present utility model is elaborated.

Penetrating of the present utility model the position that ball room 10 is arranged on the circulating water inlet 2 of condenser 1, being connected penetrating the water inlet end of ball room 10 with condenser 1; Ball screen 4 of the present utility model is arranged in the circulating water outlet pipe 3 of condenser 1 simultaneously;

Pitching state: high-pressure hydraulic pump 9 starts, as shown in Figure 5, by water under high pressure, glueballs is gone out from ball feeding chamber 7, enter and penetrate ball room 10 and enter the recirculated cooling water pipeline of condenser 1 through distributing, water under high pressure carries out sufficient deashing scale removal by each recirculated cooling water pipeline to each recirculated cooling water pipeline at a high speed with glueballs;

Receive spherical state: glueballs flows out through circulating water outlet pipe 3, enter ball feeding chamber 7 through ball screen 4, Rubber ball pump 5, inlet non return check valve 6.

Analyze known, compared with prior art, advantage of the present utility model and beneficial effect are:

One, the plant condenser height injection ball cleaning systems that the utility model provides combine the advantage of traditional rubber ball cleaning system and high pressure water washing system, the pressure energy of the water under high pressure that high-pressure hydraulic pump 9 can be utilized in use to spray is converted into high-velocity fluid, glueballs impact extrusion in ball feeding chamber 7 is entered in the recirculated cooling water pipeline of condenser 1, now glueballs has very large instantaneous striking momentum, quickly through condenser 1 recirculated cooling water pipeline while by clean for the dirt flush clean of the recirculated cooling water pipeline inwall of condenser 1; Therefore, the utility model compare traditional rubber ball cleaning system and high pressure water washing system there is cleaning evenly, cleaning more thoroughly, prevent the feature that glueballs blocks and ball collecting rate is high.

Two, the diameter of glueballs of the present utility model is greater than the caliber of the recirculated cooling water pipeline of condenser 1, can make to fit completely between the tube wall of the recirculated cooling water pipeline of glueballs and condenser 1, reaches good cleaning performance.

Glueballs in ball screen 4 can be transported in ball feeding chamber 7 by Rubber ball pump 5 that three, the utility model is arranged smoothly.

Four, glueballs can be taken in by the vibrational power flow of ball screen 4 of the present utility model and position arrangement smoothly, and prevents glueballs from blocking in the exit of ball screen 4.

Five, the glueballs that the non-return valve 6 that the utility model is arranged can prevent water under high pressure to be back in low pressure line and ball feeding chamber 7 returns ball from ball hole.

Six, the ball feeding chamber that the utility model is arranged founds net 8 and glueballs smooth delivery of power in ball feeding chamber 7 can be made when high pressure water impact glueballs in condenser 1.

The structure of seven, penetrating ball room 10 in the utility model can play the effect of guiding early stage to glueballs, guarantees that glueballs can enter the recirculated cooling water pipeline of condenser 1 smoothly.

As known by the technical knowledge, the utility model can be realized by other the embodiment not departing from its Spirit Essence or essential feature.Therefore, above-mentioned disclosed embodiment, with regard to each side, all just illustrates, is not only.Allly all to be included in the utility model within the scope of the utility model or being equal to the change in scope of the present utility model.

Claims (10)

1. plant condenser height injection ball cleaning systems, is characterized in that, comprising:

Ball feeding chamber, for placing glueballs;

High-pressure hydraulic pump, is connected with the water inlet of described ball feeding chamber, for spraying the glueballs that water under high pressure promotes in described ball feeding chamber;

Penetrate ball room, the described entrance point penetrating ball room is connected with the outlet of described ball feeding chamber, the described port of export penetrating ball room is connected with the entrance point of described condenser, the entrance point of described condenser has multiple recirculated cooling water pipeline, described in penetrate ball room for receiving the glueballs that promoted by water under high pressure and glueballs being assigned to each recirculated cooling water pipeline of described condenser; With

Ball screen, is connected by pipeline with the ball hole of described ball feeding chamber in the circulating water outlet pipe being arranged on described condenser, is delivered in described ball feeding chamber by glueballs for the glueballs that receives through each recirculated cooling water pipeline of described condenser.

2. plant condenser height injection ball cleaning systems according to claim 1, is characterized in that:

The diameter of described glueballs is greater than the caliber of the recirculated cooling water pipeline of described condenser.

3. plant condenser height injection ball cleaning systems according to claim 1 and 2, is characterized in that, also comprise:

Rubber ball pump, is located on the pipeline between described ball screen and described ball feeding chamber, for being delivered in described ball feeding chamber by the glueballs in described ball screen.

4. plant condenser height injection ball cleaning systems according to claim 3, is characterized in that:

Described Rubber ball pump is positioned at below the bottom of described ball screen.

5. plant condenser height injection ball cleaning systems according to claim 1 and 2, is characterized in that:

Described ball screen is arranged on the below of the water outlet port of described condenser.

6. plant condenser height injection ball cleaning systems according to claim 5, is characterized in that:

The middle part of described ball screen forms projection, and the periphery bottom of described ball screen is provided with two or more ball mouth.

7. plant condenser height injection ball cleaning systems according to claim 1 and 2, is characterized in that, also comprise:

Non-return valve, described non-return valve is arranged on the ball hole place of described ball feeding chamber, returns ball for the glueballs preventing described water under high pressure to be back in low pressure line and ball feeding chamber from ball hole.

8. plant condenser height injection ball cleaning systems according to claim 1 and 2, is characterized in that, also comprise:

Ball feeding chamber founds net, described ball feeding chamber founds net and becomes to be inclined in described ball feeding chamber, the outlet of described ball feeding chamber is positioned at the top that described ball feeding chamber founds net, the ball hole of described ball feeding chamber and the outlet of described ball feeding chamber are positioned at the same side that described ball feeding chamber founds net, and the water inlet of described ball feeding chamber is positioned at the opposite side that described ball feeding chamber founds net.

9. plant condenser height injection ball cleaning systems according to claim 1 and 2, is characterized in that, described in penetrate ball room and comprise:

Goal passage leading portion, described goal passage leading portion is connected by the outlet of pipeline with described ball feeding chamber; With

Goal passage back segment, the front end of described goal passage back segment is mated with described goal passage leading portion and is connected, the rear end of described goal passage back segment is connected with the entrance point of described condenser, described goal passage back segment is provided with and multiplely penetrates bulb road, the recirculated cooling water pipeline one_to_one corresponding penetrating bulb road and described condenser described in multiple is arranged.

10. plant condenser height injection ball cleaning systems according to claim 9, is characterized in that, described in penetrate ball room and also comprise:

Flexible sealing part, described flexible sealing part is arranged between described goal passage back segment and the entrance point of described condenser.